Game controller for a mobile device with flat flex connector

ABSTRACT

A game controller for a mobile device, the game controller including a first handle, a second handle, a bridge, and a flat, flexible cable. The first handle is configured to contact and support a mobile device. The first handle includes a user-accessible, first hardware interface on a main body portion of the first handle that is configured to accept touch inputs. The second handle is configured to contact and support the mobile device. The second handle includes a user-accessible, second hardware interface on a main body portion of the second handle that is configured to accept touch inputs. The bridge couples the first handle to the second handle. The bridge is in sliding engagement with the first handle and the second handle. The flat, flexible cable is configured to conduct an electrical signal between the first handle and the second handle.

CROSS REFERENCE TO RELATED APPLICATIONS

This patent application is a continuation-in-part application of U.S.patent application Ser. No. 16/808,339, filed Mar. 3, 2020, which isincorporated herein by reference in its entirety.

TECHNICAL FIELD

The subject matter is related to an apparatus and methods for a gamecontroller for a mobile device.

BACKGROUND

A game controller is a device used to provide input to a video game, forexample to control an object or character in the video game. The videogame may be running on a computer, a specially designed gaming system,or a mobile device. In some prior art devices, the game controller isdesigned to mechanically couple to a mobile device.

Embodiments of the technology disclosed in this document addressshortcomings in the prior art.

BRIEF DESCRIPTION OF THE DRAWINGS

FIG. 1 is a perspective view of a game controller, according toembodiments.

FIGS. 2-4 are each top views of the game controller of FIG. 1,collectively showing an example process of how the game controller maycontact and support an example mobile device.

FIG. 5 is a top, partial sectional view of the game controller of FIG. 1in an example of a retracted configuration of the game controller.

FIG. 6 is a top, partial sectional view of the game controller of FIG. 1in an example of an extended configuration of the game controller.

FIG. 7 is a close-up of a portion of the game controller of FIGS. 5 and6, illustrating an example latch mechanism in an unlatchedconfiguration.

FIG. 8 is a close-up of a portion of the game controller of FIGS. 5 and6, illustrating the example latch mechanism of FIG. 7 in a latchedconfiguration.

FIG. 9 is a close-up of a portion of a first alternative arrangement forthe game controller of FIGS. 5 and 6, illustrating an example latchmechanism in an unlatched configuration.

FIG. 10 is a close-up of a portion of a first alternative arrangementfor the game controller of FIGS. 5 and 6, illustrating the example latchmechanism of FIG. 9 in a latched configuration.

FIG. 11 is a close-up of a portion of a second alternative arrangementfor the game controller of FIGS. 5 and 6, illustrating an example latchmechanism in an unlatched configuration.

FIG. 12 is a close-up of a portion of a second alternative arrangementfor the game controller of FIGS. 5 and 6, illustrating the example latchmechanism of FIG. 11 in a latched configuration.

FIG. 13 is a close-up of a portion of a third alternative arrangementfor the game controller of FIGS. 5 and 6, illustrating an example latchmechanism in an unlatched configuration.

FIG. 14 is a close-up of a portion of a third alternative arrangementfor the game controller of FIGS. 5 and 6, illustrating the example latchmechanism of FIG. 13 in a latched configuration.

FIG. 15 is a close-up of a portion of a fourth alternative arrangementfor the game controller of FIGS. 5 and 6, illustrating an example latchmechanism in an unlatched configuration.

FIG. 16 is a close-up of a portion of a fourth alternative arrangementfor the game controller of FIGS. 5 and 6, illustrating the example latchmechanism of FIG. 15 in a latched configuration.

FIG. 17 is a top, perspective view of the game controller of FIG. 1 inan example of a retracted configuration of the game controller andillustrated next to an example mobile device.

FIG. 18 is a top, perspective view of the game controller of FIG. 17, inan example of an extended configuration of the game controller andillustrating how the example mobile device fits into the game controllerin configurations.

FIG. 19 is a top, perspective view of the game controller of FIG. 17,showing only certain features internal to the game controller.

FIG. 20 is a partially exploded view of the game controller of FIG. 19.

FIG. 21 is a bottom, perspective view of the game controller of FIG. 19.

FIG. 22 is a front view of the game controller of FIG. 17, in theexample of the retracted configuration of the game controller, andshowing only certain features internal to the game controller.

FIG. 23 is a front view of the game controller of FIG. 18, in theexample of the extended configuration of the game controller, andshowing only certain features internal to the game controller.

DETAILED DESCRIPTION

As described in this document, embodiments are directed to a gamecontroller for a mobile device with a hold-open feature.

Keeping the handles pulled apart while inserting the mobile device intoa game controller can be difficult. For example, a user holding a mobiledevice in the user's right hand may need to use the user's left hand topull the two handles apart when placing the mobile device between thetwo handles of the game controller. This difficulty with insertion maybe exacerbated when the game controller connects to the mobile devicevia a connector, such as USB-C connector, because the user must alsoensure that the mobile device is aligned with the connector wheninserting it. The removal of the mobile device may be equally vexing asthe user must once again attempt to pull the two handles apart with onehand.

But in embodiments of the disclosed game controller, once the handlesare pulled apart sufficiently, the handles lock in place, allowing theuser to easily insert the mobile device. Then, by applying lightpressure on the handles, the user can unlock the handles and snap thedevice shut, securing the mobile device to the game controller.

FIG. 1 is a perspective view showing portions of a game controller 100,according to embodiments. As illustrated in FIG. 1, a game controller100 may include a first handle 101, a second handle 102, and a bridge119. Each of the first handle 101 and the second handle 102 isconfigured to contact and support a mobile device 199, though not allcontemplated embodiments will include the second handle 102. Anexemplary mobile device 199 is shown in broken lines to illustrate howthe game controller 100 may contact and support a mobile device 199 insome embodiments. The mobile device 199 may be, as examples, asmartphone or a tablet computer.

As illustrated in FIG. 1, the first handle 101 includes a guide portion113 and a main body portion 105. The guide portion 113 extends from themain body portion 105 and along a first end 115 of the span 120 of thebridge 119. (See also FIGS. 5 and 6.) The guide portion 113 of the firsthandle 101 is configured to align the bridge 119 with the main bodyportion 105 of the first handle 101.

As illustrated, the first handle 101 includes a user-accessible, firsthardware interface 103 on the main body portion 105 of the first handle101. The first hardware interface 103 could be a button, an analogstick, a touchscreen, a touchpad, a knob, a slider, a switch, a wheel, adial, a directional pad, or another such feature configured to accepttouch inputs from a user's finger or a stylus. As shown in FIG. 1, thefirst hardware interface 103 may include multiple such hardwareinterfaces.

Likewise, the second handle 102 includes a guide portion 114 and a mainbody portion 106. The guide portion 114 extends from the main bodyportion 106 and along a second end 116 of the span 120 of the bridge119. (See also FIGS. 5 and 6.) The guide portion 114 of the secondhandle 102 is configured to align the bridge 119 with the main bodyportion 106 of the second handle 102.

As illustrated, the second handle 102 further includes auser-accessible, second hardware interface 104 on the main body portion106 of the second handle 102. As above for the first hardware interface103 of the first handle 101, the second hardware interface 104 could bea button, an analog stick, a touchscreen, a touchpad, a knob, a slider,a switch, a wheel, a dial, a directional pad, or another such featureconfigured to accept touch inputs from a user's finger or a stylus. Thesecond hardware interface 104 may include multiple such hardwareinterfaces, as illustrated in FIG. 1.

One or both of the first handle 101 and the second handle 102 mayinclude a connector 125 for physical and electrical connection to themobile device 199. The connector 125 may be, for example, a USB-Cconnector.

FIGS. 2-4 are top views of the game controller 100 of FIG. 1, showing anexample process of how the game controller 100 may contact and supportan example mobile device 199. As illustrated in FIG. 2, the mobiledevice 199 may be placed over the bridge 119, between the first handle101 and the second handle 102 of the game controller 100. As illustratedin FIG. 3, the connector 125 of the game controller 100 may be joinedwith a corresponding connector on the mobile device 199. FIGS. 2 and 3show examples of an extended configuration of the game controller 100.In FIG. 4, the mobile device 199 is secured between the first handle 101and the second handle 102 of the game controller 100. FIG. 4 illustratesan example of a retracted configuration of the game controller 100. Theextended configuration and the retracted configuration of the gamecontroller 100 will be described in more detail below. The reader willnote, though, that there is more than one retracted configuration. Forexample, FIG. 4 illustrates an example of a retracted configuration whenthe game controller 100 is securing a mobile device 199. As anotherexample, FIG. 5 (described below) illustrates an example of a retractedconfiguration when the game controller 100 is not securing a mobiledevice 199.

FIG. 5 is a front, partial sectional view of the game controller 100 ofFIG. 1 in an example of a retracted configuration of the game controller100. FIG. 6 is a front, partial sectional view of the game controller100 of FIG. 1 in an example of an extended configuration of the gamecontroller 100. As illustrated in FIGS. 5-6, a game controller 100 mayinclude a first handle 101, a second handle 102, and a bridge 119, eachas described above for FIGS. 1-4. In each of FIGS. 5-6, externalportions of the first handle 101, the second handle 102, and the bridge119 are not shown to make certain internal features visible.

As illustrated, the bridge 119 is in sliding engagement with the firsthandle 101. As illustrated, the bridge 119 is not telescoping, meaningthat segments of the bridge 119 do not slide within another segment ofthe bridge 119 to allow for lengthening or shortening of the bridge 119.The bridge 119 has a span 120 extending away from the main body portion105 of the first handle 101, and the span 120 has a transverse midline121.

The bridge 119 and the first handle 101 are configured to allow the mainbody portion 105 of the first handle 101 to translate in a retractiondirection 122 toward the midline 121 of the bridge 119 and into aretracted configuration, such as one of the example retractedconfigurations illustrated in FIG. 4 or 5. The bridge 119 and the firsthandle 101 are configured to allow the main body portion 105 of thefirst handle 101 to also translate in an extension direction 123 awayfrom the midline 121 of the bridge 119 into an extended configuration,such as one of the example extended configurations illustrated in FIG. 2or 6.

As used in this disclosure, the transverse midline 121 of the bridge 119is a reference datum used to define the extension direction 123 and theretraction direction 122. That is, the retraction direction 122 istoward the transverse midline 121, while the retraction direction 122 isaway from the transverse midline 121. Accordingly, the transversemidline 121 of the bridge 119 may or may not coincide with a physicalstructure on the game controller 100.

Likewise, the bridge 119, as illustrated, is in sliding engagement withthe second handle 102, and the span 120 of the bridge 119 extends awayfrom the main body portion 106 of the second handle 102. The bridge 119and the second handle 102 are configured to allow the main body portion106 of the second handle 102 to translate in the retraction direction122 toward the midline 121 of the bridge 119 and into the retractedconfiguration. The bridge 119 and the second handle 102 are configuredto allow the main body portion 106 of the second handle 102 to alsotranslate in the extension direction 123 away from the midline 121 ofthe bridge 119 into the extended configuration.

As illustrated in FIGS. 5-6, the game controller 100 may also include afirst spring mechanism 107, a second spring mechanism 108, a first latchmechanism 109, a second latch mechanism 110, a first linear rack 111, asecond linear rack 112, and a pinion 124. These are described below.

The first spring mechanism 107 is configured to bias the first handle101 toward the retracted configuration. In addition, the first springmechanism 107 exerts a first retraction force on the first latchmechanism 109 in the retraction direction 122. As illustrated, the firstspring mechanism 107 may be attached to the first handle 101 through ashaft 117 and is also attached to the bridge 119. The first springmechanism 107 may be or include a first constant-load spring connectingthe first handle 101 to the bridge 119. The first constant-load springis configured to exert a substantially constant force on the firsthandle 101 in the retraction direction 122. As used in this disclosure,“substantially constant” means largely or essentially invariable, yetwithout requiring perfect constancy, as the game controller 100transitions from the retracted configuration to the extendedconfiguration and from the extended configuration to the retractedconfiguration.

The second spring mechanism 108 is configured to bias the second handle102 toward the retracted configuration. In addition, the second springmechanism 108 exerts a second retraction force on the second latchmechanism 110 in the retraction direction 122. As illustrated, thesecond spring mechanism 108 is attached to the second handle 102 througha shaft 118 and is also attached to the bridge 119. The second springmechanism 108 may be or include a second constant-load spring connectingthe second handle 102 to the bridge 119. The second constant-load springis configured to exert a substantially constant force on the secondhandle 102 in the retraction direction 122.

The first latch mechanism 109 is configured to temporarily lock thebridge 119 in the extended configuration. The first latch mechanism 109is further configured to require a first disengagement force in theretraction direction 122 to unlock the bridge 119 from the extendedconfiguration. The first disengagement force is greater than the firstretraction force exerted by the first spring mechanism 107 in theretraction direction 122. The additional force (that is, that portion ofthe first disengagement force that exceeds the first retraction force)may be provided by, for example, pressure from the user's hands exertedin the retraction direction 122.

Likewise, the second latch mechanism 110 is configured to temporarilylock the bridge 119 in the extended configuration. The second latchmechanism 110 is further configured to require a second disengagementforce in the retraction direction 122 to unlock the bridge 119 from theextended configuration. The second disengagement force is greater thanthe second retraction force exerted by the second spring mechanism 108in the retraction direction 122. The additional force (that is, thatportion of the second disengagement force that exceeds the secondretraction force) may be provided by, for example, pressure from theuser's hands exerted in the retraction direction 122.

As illustrated, the first linear rack 111 is coupled to the first handle101 and is in sliding engagement with the bridge 119. The first linearrack 111 extends substantially along the span 120 of the bridge 119. Asused in this disclosure, “substantially along” means largely oressentially in the direction of, without requiring perfect conformity.The first linear rack 111 may further include a step 126 or indentation,which may engage with the first latch mechanism 109 as described morefully below. As used in this disclosure, “to engage” means “to interlockwith; to fit together.”

The second linear rack 112 is coupled to the second handle 102 and is insliding engagement with the bridge 119. The second linear rack 112extends substantially along the span 120 of the bridge 119. The secondlinear rack 112 may further include a step 126, which may engage withthe second latch mechanism 110 as described more fully below.

As illustrated, the pinion 124 is affixed to the bridge 119. The pinion124 is in contact with each of the first linear rack 111 and the secondlinear rack 112. The pinion 124 is configured to rotate relative to thebridge 119 as the first linear rack 111 is translated relative to thepinion 124. The pinion 124 is also configured to rotate as the secondlinear rack 112 is translated relative to the pinion 124.

FIG. 7 is a close-up of a portion of the game controller 100 of FIGS. 5and 6, illustrating an example latch mechanism in an unlatchedconfiguration. FIG. 8 is a close-up of a portion of the game controller100 of FIGS. 5 and 6, illustrating the example latch mechanism of FIG. 7in a latched configuration. While illustrated and described for thefirst-handle side of the game controller 100, the discussion for FIGS. 7and 8 applies equally to the second-handle side of the game controller100. Hence, the example latch mechanism of FIGS. 7 and 8 may be thefirst latch mechanism 109 described above for FIGS. 5 and 6, the secondlatch mechanism 110 described above for FIGS. 5 and 6, or both the firstlatch mechanism 109 and the second latch mechanism 110.

As illustrated in FIGS. 7 and 8, the example latch mechanism may includea catch 127 coupled to the bridge 119. The catch 127 is configured tocontact and engage the step 126 on the first linear rack 111 in theextended configuration and disengage from the step 126 on the firstlinear rack 111 in the retracted configuration. To facilitate theengagement and disengagement of the catch 127 from the step 126, thestep 126 may be angled or rounded, or a portion of the catch 127 facingthe step 126 may be angled or rounded, or both.

As illustrated, the catch 127 is coupled to the bridge 119 through apivot 128. The first latch mechanism 109 may also include a cantileveredspring 129 configured to apply a torque to the catch 127 about the pivot128 to bias the catch 127 against the first linear rack 111. Thecantilevered spring 129 may be coupled to the bridge 119 by one or moreattachment points 130.

With particular reference to FIGS. 2-8, in use the game controller 100may initially be in a retracted configuration, such as the retractedconfiguration illustrated in FIG. 5. In the retracted configuration, thecatch 127 is disengaged from the step 126 on the first linear rack 111.In versions having a catch 127 on a second linear rack 112 (also orinstead of the catch 127 on the first linear rack 111), in the retractedconfiguration, the catch 127 is disengaged from the step 126 on thesecond linear rack 112.

Then, the user may apply a force (using, for example, the user's hands)to the first handle 101 or the second handle 102, or both, in theextension direction 123 to move the game controller 100 into an extendedconfiguration, such as the extended configurations illustrated in FIGS.1, 2, and 6. In other words, the user may pull the first handle 101 andthe second handle 102 apart from each other.

In transitioning to the extended configuration, the first linear rack111 slides relative to the catch 127 for the first end 115 of the span120 until that catch 127 is aligned with the step 126 in the firstlinear rack 111. During the transition, the first spring mechanism 107continues to bias the first handle 101 toward the retractedconfiguration and exerts a first retraction force on the first latchmechanism 109 in the retraction direction 122. The cantilevered spring129 then causes the catch 127 for the first end 115 of the span 120 toengage the step 126 of the first linear rack 111 by forcing the catch127 into the step 126. The first latch mechanism 109 is now temporarilylocking the bridge 119 in the extended configuration by way of the catch127.

In versions having a catch 127 on a second linear rack 112 (also orinstead of the catch 127 on the first linear rack 111), in transitioningto the extended configuration, the second linear rack 112 slidesrelative to the catch 127 for the second end 116 of the span 120 untilthe catch 127 is aligned with the step 126 in the second linear rack112. During the transition, the second spring mechanism 108 continues tobias the second handle 102 toward the retracted configuration and exertsa second retraction force on the second latch mechanism 110 in theretraction direction 122. The cantilevered spring 129 then causes thecatch 127 for the second end 116 of the span 120 to engage the step 126of the second linear rack 112 by forcing the catch 127 into the step126. The second latch mechanism 110 is now temporarily locking thebridge 119 in the extended configuration by way of the catch 127.

With the bridge 119 temporarily locked in the extended configuration,the user may then insert a mobile device 199 into the game controller100 by placing the mobile device 199 over the bridge 119, such asillustrated in FIG. 2. If necessary, the connector 125 of the gamecontroller 100 may then be joined with a corresponding connector on themobile device 199, such as illustrated in FIG. 3.

To unlock the hold-open feature, where the bridge 119 is temporarilylocked in the extended configuration, and return the game controller 100to a retracted configuration, the user typically applies a force to thefirst handle 101 in the retraction direction 122. This user-appliedforce, coupled with the first retraction force exerted by the firstspring mechanism 107, causes the catch 127 for the first end 115 of thespan 120 to disengage from the step 126 in the first linear rack 111.Once disengaged, the first retraction force exerted by the first springmechanism 107 causes the game controller 100 to transition to aretracted configuration.

In versions having a catch 127 on a second linear rack 112 (also orinstead of the catch 127 on the first linear rack 111), the user mayapply a force to the second handle 102 in the retraction direction 122.This user-applied force, coupled with the second retraction forceexerted by the second spring mechanism 108, causes the catch 127 for thesecond end 116 of the span 120 to disengage from the step 126 in thesecond linear rack 112. Once disengaged, the second retraction forceexerted by the second spring mechanism 108 causes the game controller100 to transition to a retracted configuration.

Since moving the game controller 100 from the retracted configuration tothe extended configuration is often done by using both of the user'shands (such as, for example, one hand on each of the first handle 101and the second handle 102), the hold-open feature allows the user—oncethe game controller 100 is temporarily locked in the extendedconfiguration—to remove one or both of the user's hands from the gamecontroller 100 (such as, for example, from either the first handle 101or the second handle 102, or both) to manipulate the mobile device 199into position, such as the position illustrated in FIG. 2. Hence,embodiments of the disclosed technology allow the user to efficientlyand easily insert and remove a mobile device 199 from the gamecontroller 100.

FIG. 9 is a close-up of a portion of an alternative arrangement for thegame controller 100 of FIGS. 5 and 6, illustrating an example latchmechanism in an unlatched configuration. FIG. 10 is a close-up of aportion of an alternative arrangement for the game controller 100 ofFIGS. 5 and 6, illustrating the example latch mechanism of FIG. 9 in alatched configuration. While illustrated and described for thefirst-handle side of the game controller 100, the discussion for FIGS. 9and 10 applies equally to the second-handle side of the game controller100. Hence, the example latch mechanism of FIGS. 9 and 10 may be thefirst latch mechanism 109 described above for FIGS. 5 and 6, the secondlatch mechanism 110 described above for FIGS. 5 and 6, or both the firstlatch mechanism 109 and the second latch mechanism 110.

As illustrated in FIGS. 9 and 10, the example latch mechanism mayinclude a tension spring 132 coupled to the bridge 119. An engagementportion 131 of the tension spring 132 is configured to contact andengage the step 126 on the first linear rack 111 in the extendedconfiguration and disengage from the step 126 on the first linear rack111 in the retracted configuration. To facilitate the engagement anddisengagement of the catch 127 from the step 126, the step 126 may beangled or rounded.

As illustrated, the tension spring 132 is coupled to the bridge 119through one or more attachment points 133. The tension spring 132 isconfigured to bias the engagement portion 131 of the tension spring 132against the first linear rack 111. The engagement portion 131 isconfigured to engage the step 126 in the extended configuration.

Accordingly, in transitioning from the retracted configuration (anexample of which is illustrated in FIG. 9) to the extended configuration(an example of which is illustrated in FIG. 10), the first linear rack111 slides relative to the engagement portion 131 of the tension spring132 until the engagement portion 131 is aligned with the step 126 in thefirst linear rack 111. The tension spring 132 then causes the engagementportion 131 to engage the step 126 of the first linear rack 111 byforcing the engagement portion 131 into the step 126. Likewise, intransitioning from the extended configuration to the retractedconfiguration, the engagement portion 131 of the tension spring 132 isdisengaged from the step 126 in the first linear rack 111. Otherwise,operation of this example latch mechanism is substantially as describedabove for FIGS. 2-8.

FIG. 11 is a close-up of a portion of an alternative arrangement for thegame controller 100 of FIGS. 5 and 6, illustrating an example latchmechanism in an unlatched configuration. FIG. 12 is a close-up of aportion of an alternative arrangement for the game controller 100 ofFIGS. 5 and 6, illustrating the example latch mechanism of FIG. 11 in alatched configuration. While illustrated and described for thefirst-handle side of the game controller 100, the discussion for FIGS.11 and 12 applies equally to the second-handle side of the gamecontroller 100. Hence, the example latch mechanism of FIGS. 11 and 12may be the first latch mechanism 109 described above for FIGS. 5 and 6,the second latch mechanism 110 described above for FIGS. 5 and 6, orboth the first latch mechanism 109 and the second latch mechanism 110.

As illustrated in FIGS. 11 and 12, the example latch mechanism mayinclude a catch 134 coupled to the bridge 119. The catch 134 isconfigured to contact and engage the step 126 on the first linear rack111 in the extended configuration and disengage from the step 126 on thefirst linear rack 111 in the retracted configuration. To facilitate theengagement and disengagement of the catch 134 from the step 126, thestep 126 may be angled or rounded, or a portion of the catch 134 facingthe step 126 may be angled or rounded, or both.

As illustrated, the catch 134 is coupled to the bridge 119 through apivot 135. The first latch mechanism 109 may also include a cantileveredspring 136 configured to apply a torque to the catch 134 about the pivot135 to bias the catch 134 against the first linear rack 111. Asillustrated, the cantilevered spring 136 may be integral to and extendfrom the catch 134. Accordingly, the cantilevered spring 136 may beconfigured to slide through one or more guide points 137 of the bridge119, which constrain an end of the cantilevered spring 136 opposite thecatch 134.

Operation of this example latch mechanism is substantially as describedabove for FIGS. 2-8.

FIG. 13 is a close-up of a portion of an alternative arrangement for thegame controller 100 of FIGS. 5 and 6, illustrating an example latchmechanism in an unlatched configuration. FIG. 14 is a close-up of aportion of an alternative arrangement for the game controller 100 ofFIGS. 5 and 6, illustrating the example latch mechanism of FIG. 13 in alatched configuration. While illustrated and described for thefirst-handle side of the game controller 100, the discussion for FIGS.13 and 14 applies equally to the second-handle side of the gamecontroller 100. Hence, the example latch mechanism of FIGS. 13 and 14may be the first latch mechanism 109 described above for FIGS. 5 and 6,the second latch mechanism 110 described above for FIGS. 5 and 6, orboth the first latch mechanism 109 and the second latch mechanism 110.

As illustrated in FIGS. 13 and 14, the example latch mechanism mayinclude an elastic body 138 coupled to the bridge 119. The elastic body138 is configured to contact and frictionally engage a raised portion139 on the first linear rack 111 in the extended configuration anddisengage from the raised portion 139 in the retracted configuration. Tofacilitate the engagement and disengagement of the elastic body 138 fromthe raised portion 139, the raised portion 139 may be angled or rounded,or the raised portion 139 may be angled or rounded, or both. Asillustrated, the elastic body 138 is configured to elastically distortwhen engaged with the raised portion 139 of the first linear rack 111.

Accordingly, in transitioning from the retracted configuration (anexample of which is illustrated in FIG. 13) to the extendedconfiguration (an example of which is illustrated in FIG. 14), the firstlinear rack 111 slides relative to the elastic body 138 until theelastic body 138 contacts the raised portion 139 of the first linearrack 111. The elastic body 138 then elastically distorts andfrictionally engages the raised portion 139 on the first linear rack111. Likewise, in transitioning from the extended configuration to theretracted configuration, the elastic body 138 is disengaged from theraised portion 139 of the first linear rack 111. Otherwise, operation ofthis example latch mechanism is substantially as described above forFIGS. 2-8.

FIG. 15 is a close-up of a portion of an alternative arrangement for thegame controller 100 of FIGS. 5 and 6, illustrating an example latchmechanism in an unlatched configuration. FIG. 16 is a close-up of aportion of an alternative arrangement for the game controller 100 ofFIGS. 5 and 6, illustrating the example latch mechanism of FIG. 15 in alatched configuration. While illustrated and described for thefirst-handle side of the game controller 100, the discussion for FIGS.15 and 16 applies equally to the second-handle side of the gamecontroller 100. Hence, the example latch mechanism of FIGS. 15 and 16may be the first latch mechanism 109 described above for FIGS. 5 and 6,the second latch mechanism 110 described above for FIGS. 5 and 6, orboth the first latch mechanism 109 and the second latch mechanism 110.

As illustrated in FIGS. 15 and 16, the example latch mechanism mayinclude one or more resilient clips 140 on the first handle 101. Asillustrated, the resilient clip 140 may be within the guide portion 113of the first handle 101. The resilient clip 140 is configured to contactand engage an outer edge of the bridge 119 in the extended configurationand to disengage from the outer edge of the bridge 119 in the retractedconfiguration. To facilitate the engagement and disengagement of theresilient clip 140 from the outer edge of the bridge 119, the resilientclip 140 may be angled or rounded, the outer edge may be angled orrounded, or both. The resilient clip 140 is biased against the outeredge of the bridge 119. As illustrated in FIG. 15, the resilient clips140 may be disengaged from the outer edge of the bridge 119 while stillbeing in contact with the outer edge.

As illustrated in FIG. 16, the resilient clip 140 engages a terminus ofthe bridge 119. In other embodiments, the resilient clip 140 may engagean indentation or step on the outer edge of the bridge 119, theindentation or step not being at the terminus of the bridge 119.

Alternatively, one or more resilient clips 140 may be on the bridge 119and be configured to contact and engage the first handle 101 in theextended configuration and to disengage from the first handle 101 in theretracted configuration.

With specific reference to the embodiment illustrated in FIGS. 15 and16, in transitioning from the retracted configuration (an example ofwhich is illustrated in FIG. 15) to the extended configuration (anexample of which is illustrated in FIG. 16), the bridge 119 slidesrelative to the first handle 101 until the resilient clip 140 engagesthe terminus of the bridge 119. Likewise, in transitioning from theextended configuration to the retracted configuration, the resilientclip 140 is disengaged from the terminus of the bridge 119. Otherwise,operation of this example latch mechanism is analogous to what isdescribed above for FIGS. 2-8.

FIG. 17 is a top, perspective view of the game controller 100 of FIG. 1in an example of a retracted configuration of the game controller andillustrated next to an example mobile device 199. FIG. 18 is a top,perspective view of the game controller 100 of FIG. 17, in an example ofan extended configuration of the game controller 100 and illustratinghow the example mobile device 199 fits into the game controller 100 inconfigurations. As illustrated in FIGS. 17 and 18, the game controller100 includes the first handle 101, the second handle 102, and the bridge119, each as discussed above. The configuration illustrated in FIGS.17-23 may include any or all of the features discussed in thisdisclosure for other configurations of the game controller 100.

FIG. 19 is a top, perspective view of the game controller 100 of FIG.17, showing only certain features internal to the game controller 100.FIG. 20 is a partially exploded view of the game controller 100 of FIG.19. FIG. 21 is a bottom, perspective view of the game controller 100 ofFIG. 19.

As illustrated in FIGS. 19-21, the first handle 101 includes a firstelectronic circuit 141 that is coupled to the first hardware interface103. For example, as illustrated in FIGS. 17 and 19, the first hardwareinterface 103 has a corresponding feature 142 of the first electroniccircuit 141. The corresponding feature 142 of the first electroniccircuit 141 is configured to translate a mechanical, touch input thefirst hardware interface 103 into an electrical signal. Hence, forexample, the corresponding feature 142 of the first electronic circuit141 may be an electronic switch.

Likewise, the second handle 102 includes a second electronic circuit 143that is coupled to the second hardware interface 104. For example, asillustrated in FIGS. 17 and 19, the second hardware interface 104 has acorresponding feature 144 of the second electronic circuit 143. Thecorresponding feature 144 of the second electronic circuit 143 isconfigured to translate a mechanical, touch input the second hardwareinterface 104 into an electrical signal. Hence, for example, thecorresponding feature 144 of the second electronic circuit 143 may be anelectronic switch.

The second handle 102 further includes an electronic controller 145. Theelectronic controller 145 is configured to receive an electrical signalfrom the second electronic circuit 143. The electrical signal from thesecond electronic circuit 143 may be, for example, the electrical signalproduced by the corresponding feature 144 of the second electroniccircuit 143 in response to a touch input at the second hardwareinterface 104. The electronic controller 145 is also configured toreceive an electrical signal from the first electronic circuit 141 via aflat, flexible cable 146. The electrical signal from the firstelectronic circuit 141 may be, for example, the electrical signalproduced by the corresponding feature 142 of the first electroniccircuit 141 in response to a touch input at the first hardware interface103.

The flat, flexible cable 146 is configured to conduct an electricalsignal between the first handle and the second handle. Inconfigurations, the flat, flexible cable 146 is a flat and flexibleplastic film base, with multiple, flat, metallic conductors bonded toone surface of the film base. As illustrated most clearly in FIG. 21,the flat, flexible cable 146 may be coupled at a first end 147 of theflat, flexible cable 146 to the first electronic circuit 141 and, at asecond end 148 of the flat, flexible cable 146, to the second electroniccircuit 143.

As illustrated most clearly in FIG. 20, in configurations the flat,flexible cable 146 includes a double fold 149. In configurations, thedouble fold 149 may be at the midline 121 of the bridge 119. In theillustrated configuration, the double fold 149 includes a folded section150. Between the folded section 150 and a first elongated section 151 ofthe flat, flexible cable 146 is a first fold 153. And between the foldedsection 150 and a second elongated section 152 of the flat, flexiblecable 146 is a second fold 154.

As illustrated, the fold angle 155 of the first fold 153 and the foldangle 156 of the second fold 154 are substantially equal and are lessthan 180°. As used in this context, “substantially equal” means largelyor essentially equivalent, without requiring perfect identicalness.Accordingly, the first elongated section 151 of the flat, flexible cable146 and the second elongated section 152 of the flat, flexible cable 146are substantially parallel. As used in this context, “substantiallyparallel” means largely or essentially equidistant at all points (if thelongitudinal centerline 169 of each elongated section were conceptuallyextended), without requiring perfect parallelism.

Consequently, the folded section 150 is at an angle to each of the firstelongated section 151 and the second elongated section 152 as defined bythe fold angles. Stated another way, before it is folded, the flat,flexible cable 146 has a longitudinal centerline 169 midway between itsedges. Once folded, the longitudinal centerline 169 running through thefirst elongated section 151 and the longitudinal centerline 169 runningthrough the folded section 150 are and an angle to each other, thatangle being related to the fold angles.

In configurations, including in the illustrated configuration, thedouble fold 149 causes the same side 157 of the flat, flexible cable 146to double over onto itself for each of the first fold 153 and the secondfold 154.

In configurations, the flat, flexible cable 146 is fixed to the bridge.The flat, flexible cable 146 may be fixed to the bridge by, for example,glue or another adhesive. In configurations, the flat, flexible cable146 is fixed to the bridge at the midline of the bridge. Fixing theflat, flexible cable 146 to the bridge may help to prevent the flat,flexible cable 146 from sliding within the bridge 119 during normal useof the game controller 100, where the game controller 100 may berepeatedly moved between the retracted configuration and the extendedconfiguration. In configurations where the flat, flexible cable 146 isfixed to the bridge, the bridge may or may not include the tray 158 (asdescribe below), the flat, flexible cable 146 may or may not include thedouble fold 149, and the tray 158 may or may not include the double jog160 (described below).

As illustrated most clearly in FIG. 20, the bridge 119 may include atray 158 that is configured to contain the flat, flexible cable 146within the tray 158. As illustrated, the tray 158 may include a narrowconduit 159 that is slightly wider and taller than the flat, flexiblecable 146 such that the flat, flexible cable 146 fits snugly within thetray 158. The tray 158 is configured to prevent the flat, flexible cable146 from bunching during normal use of the game controller 100, wherethe game controller 100 may be repeatedly moved between the retractedconfiguration and the extended configuration.

In configurations, the tray 158 may include a double jog 160, or turn.The double jog 160 in the tray 158 is configured to snugly contain thedouble fold 149 of the flat, flexible cable 146. Accordingly, the doublefold 149 of the flat, flexible cable 146 coincides with the double jog160 in the tray 158. The combination of the double fold 149 and thedouble jog 160 help to prevent the flat, flexible cable 146 from slidingwithin the tray 158 (and, therefore, within the bridge 119) duringnormal use of the game controller 100, where the game controller 100 maybe repeatedly moved between the retracted configuration and the extendedconfiguration.

FIG. 22 is a front view of the game controller of FIG. 17, in theexample of the retracted configuration of the game controller, andshowing only certain features internal to the game controller. FIG. 23is a front view of the game controller of FIG. 18, in the example of theextended configuration of the game controller, and showing only certainfeatures internal to the game controller.

As illustrated in FIGS. 22 and 23, the flat, flexible cable 146 includesa first double loop 161 within the first handle 101, and the flat,flexible cable 146 includes a second double loop 162 within the secondhandle 102. As used in this context, a “double loop” means two loops,one following the other, the first of the two loops 163 having a centerof curvature 164 that is on an opposite side of the flat, flexible cable146 from the center of curvature 166 of the second of the two loops 165.As illustrated, the center of curvature 164 of the first of the twoloops 163 is on the first side 157 of the flat, flexible cable 146,while the center of curvature 166 of the second of the two loops 165 ison a second side 167 of the flat, flexible cable 146, which is oppositethe first side 157 of the flat, flexible cable 146.

The double loops encourage the flat, flexible cable 146 to bunch withinthe first handle 101 or the second handle 102, or both (namely, at thelocation of the first double loop 161 or the second double loop 162, orboth) rather than elsewhere along the flat, flexible cable 146 when thegame controller 100 is moved between the retracted configuration and theextended configuration. In configurations, the flat, flexible cable 146may include the first double loop 161 but not the second double loop162, the second double loop 162 but not the first double loop 161,neither the first double loop 161 nor the second double loop 162, orboth the first double loop 161 and the second double loop 162.

In configurations, the flat, flexible cable 146 may include a crimpedportion 168. The crimped portion 168 may, for example, be between thefirst of the two loops 163 and the second of the two loops 165. In suchconfigurations, to crimped portion 168 encourages the flat, flexiblecable 146 to bunch at the location of the crimped portion 168 ratherthan elsewhere along the flat, flexible cable 146 when the gamecontroller 100 is moved between the retracted configuration and theextended configuration. As illustrated, the crimped portion 168 may beused in conjunction with the first double loop 161 or the second doubleloop 162, or both.

EXAMPLES

Illustrative examples of the disclosed technologies are provided below.An embodiment of the technologies may include one or more, and anycombination of, the examples described below.

Example 1 includes a game controller for a mobile device, the gamecontroller comprising: a first handle configured to contact and supporta mobile device, the first handle comprising a user-accessible, firsthardware interface on a main body portion of the first handle andconfigured to accept touch inputs; a second handle configured to contactand support the mobile device, the second handle comprising auser-accessible, second hardware interface on a main body portion of thesecond handle and configured to accept touch inputs; a bridge couplingthe first handle to the second handle, the bridge being in slidingengagement with the first handle and the second handle; and a flat,flexible cable configured to conduct an electrical signal between thefirst handle and the second handle.

Example 2 includes the game controller of Example 1, further comprising:a first electronic circuit within the first handle, the first electroniccircuit coupled to the first hardware interface; a second electroniccircuit within the second handle, the second electronic circuit coupledto the second hardware interface; and an electronic controller in thesecond handle, the electronic controller configured to receive anelectrical signal from the second electronic circuit within the secondhandle and to receive an electrical signal from the first electroniccircuit within the first handle via the flat, flexible cable.

Example 3 includes the game controller of any of Examples 1-2, thebridge further comprising a tray configured to contain the flat,flexible cable within the tray.

Example 4 includes the game controller of Example 3, in which the flat,flexible cable includes a double fold, the double fold coinciding with adouble jog in the tray.

Example 5 includes the game controller of any of Examples 1-4, in whichthe bridge has a span extending away from the main body portion of thefirst handle, the span having a transverse midline, the midline of thebridge being between the first handle and the second handle, the bridgeand the first handle being configured for the main body portion of thefirst handle to translate in a retraction direction toward the midlineof the bridge and into a retracted configuration and also to translatein an extension direction away from the midline of the bridge into anextended configuration, the bridge and the second handle beingconfigured for the main body portion of the second handle to translatealong the bridge in the retraction direction toward the midline of thebridge and into the retracted configuration and also to translate in theextension direction away from the midline of the bridge and into theextended configuration.

Example 6 includes the game controller of Example 5, in which the flat,flexible cable includes a double fold at the midline of the bridge.

Example 7 includes the game controller of Example 6, the bridge furthercomprising a tray configured to contain the flat, flexible cable withinthe tray, the double fold of the flat, flexible cable coinciding with adouble jog in the tray.

Example 8 includes the game controller of any of Examples 5-7, in whichthe flat, flexible cable is fixed to the bridge at the midline of thebridge.

Example 9 includes the game controller of any of Examples 1-8, in whichthe flat, flexible cable includes a double loop within the first handle.

Example 10 includes the game controller of Example 9, in which the flat,flexible cable further includes a crimped portion between a first loopof the double loops and a second loop of the double loop.

Example 11 includes the game controller of any of Examples 1-10, inwhich the flat, flexible cable includes a double loop within the secondhandle.

Example 12 includes the game controller of Example 11, in which theflat, flexible cable further includes a crimped portion between a firstloop of the double loops and a second loop of the double loop.

Example 13 includes the game controller of any of Examples 1-12, furthercomprising: a first linear rack coupled to the first handle and insliding engagement with the bridge, the first linear rack extendingsubstantially along the span of the bridge; and a pinion affixed to thebridge and in contact with the first linear rack, the pinion configuredto rotate relative to the bridge as the first linear rack is translatedrelative to the pinion.

Example 14 includes the game controller of Example 13, furthercomprising a second linear rack coupled to the second handle and insliding engagement with the bridge, the second linear rack extendingsubstantially along the span of the bridge, the pinion being in contactwith the second linear rack, the pinion further configured to rotaterelative to the bridge as the second linear rack is translated relativeto the pinion.

Example 15 includes the game controller of any of Examples 1-14, inwhich a guide portion of the first handle extends from the main bodyportion of the first handle and along a first end of the span of thebridge, the guide portion of the first handle configured to align thebridge with the main body portion of the first handle.

Example 16 includes the game controller of Example 15, in which a guideportion of the second handle extends from the main body portion of thesecond handle and along a second end of the span of the bridge, theguide portion of the second handle configured to align the bridge withthe main body portion of the second handle.

Example 17 includes the game controller of any of Examples 1-16, inwhich the flat, flexible cable includes a double fold within the bridge.

Example 18 includes the game controller of Example 17, in which thedouble fold comprises a first fold being between a first elongatedsection of the flat, flexible cable and a folded section of the flat,flexible cable and a second fold being between a second elongatedsection of the flat, flexible cable and the folded section.

Example 19 includes the game controller of Example 18, in which a foldangle of the first fold and a fold angle of the second fold aresubstantially equal and are less than 180 degrees.

The previously described versions of the disclosed subject matter havemany advantages that were either described or would be apparent to aperson of ordinary skill. Even so, all of these advantages or featuresare not required in all versions of the disclosed apparatus, systems, ormethods. For example, not all contemplated embodiments will include thesecond handle. As another example, not all contemplated embodimentshaving the second handle will include the second latch mechanism or thesecond spring mechanism. As another example, not all contemplatedembodiments will include the connector of the game controller if, forexample, the mobile device and the game controller communicatewirelessly.

Additionally, this written description makes reference to particularfeatures. It is to be understood that the disclosure in thisspecification includes all possible combinations of those particularfeatures. For example, where a particular feature is disclosed in thecontext of a particular aspect or embodiment, that feature can also beused, to the extent possible, in the context of other aspects andembodiments.

Also, when reference is made in this application to a method having twoor more defined steps or operations, the defined steps or operations canbe carried out in any order or simultaneously, unless the contextexcludes those possibilities.

Furthermore, the term “comprises” and its grammatical equivalents areused in this application to mean that other components, features, steps,processes, operations, etc. are optionally present. For example, anarticle “comprising” or “which comprises” components A, B, and C cancontain only components A, B, and C, or it can contain components A, B,and C along with one or more other components.

Although specific embodiments have been illustrated and described forpurposes of illustration, it will be understood that variousmodifications may be made without departing from the spirit and scope ofthe disclosure. Accordingly, the invention should not be limited exceptas by the appended claims.

I (or we) claim:
 1. A game controller for a mobile device, the gamecontroller comprising: a first handle configured to contact and supporta mobile device, the first handle comprising a user-accessible, firsthardware interface on a main body portion of the first handle andconfigured to accept touch inputs; a second handle configured to contactand support the mobile device, the second handle comprising auser-accessible, second hardware interface on a main body portion of thesecond handle and configured to accept touch inputs; a bridge couplingthe first handle to the second handle, the bridge being in slidingengagement with the first handle and the second handle; and a flat,flexible cable configured to conduct an electrical signal between thefirst handle and the second handle.
 2. The game controller of claim 1,further comprising: a first electronic circuit within the first handle,the first electronic circuit coupled to the first hardware interface; asecond electronic circuit within the second handle, the secondelectronic circuit coupled to the second hardware interface; and anelectronic controller in the second handle, the electronic controllerconfigured to receive an electrical signal from the second electroniccircuit within the second handle and to receive an electrical signalfrom the first electronic circuit within the first handle via the flat,flexible cable.
 3. The game controller of claim 1, the bridge furthercomprising a tray configured to contain the flat, flexible cable withinthe tray.
 4. The game controller of claim 3, in which the flat, flexiblecable includes a double fold, the double fold coinciding with a doublejog in the tray.
 5. The game controller of claim 1, in which the bridgehas a span extending away from the main body portion of the firsthandle, the span having a transverse midline, the midline of the bridgebeing between the first handle and the second handle, the bridge and thefirst handle being configured for the main body portion of the firsthandle to translate in a retraction direction toward the midline of thebridge and into a retracted configuration and also to translate in anextension direction away from the midline of the bridge into an extendedconfiguration, the bridge and the second handle being configured for themain body portion of the second handle to translate along the bridge inthe retraction direction toward the midline of the bridge and into theretracted configuration and also to translate in the extension directionaway from the midline of the bridge and into the extended configuration.6. The game controller of claim 5, in which the flat, flexible cableincludes a double fold at the midline of the bridge.
 7. The gamecontroller of claim 6, the bridge further comprising a tray configuredto contain the flat, flexible cable within the tray, the double fold ofthe flat, flexible cable coinciding with a double jog in the tray. 8.The game controller of claim 5, in which the flat, flexible cable isfixed to the bridge at the midline of the bridge.
 9. The game controllerof claim 1, in which the flat, flexible cable includes a double loopwithin the first handle.
 10. The game controller of claim 9, in whichthe flat, flexible cable further includes a crimped portion between afirst loop of the double loops and a second loop of the double loop. 11.The game controller of claim 1, in which the flat, flexible cableincludes a double loop within the second handle.
 12. The game controllerof claim 11, in which the flat, flexible cable further includes acrimped portion between a first loop of the double loops and a secondloop of the double loop.
 13. The game controller of claim 1, furthercomprising: a first linear rack coupled to the first handle and insliding engagement with the bridge, the first linear rack extendingsubstantially along the span of the bridge; and a pinion affixed to thebridge and in contact with the first linear rack, the pinion configuredto rotate relative to the bridge as the first linear rack is translatedrelative to the pinion.
 14. The game controller of claim 13, furthercomprising a second linear rack coupled to the second handle and insliding engagement with the bridge, the second linear rack extendingsubstantially along the span of the bridge, the pinion being in contactwith the second linear rack, the pinion further configured to rotaterelative to the bridge as the second linear rack is translated relativeto the pinion.
 15. The game controller of claim 1, in which a guideportion of the first handle extends from the main body portion of thefirst handle and along a first end of the span of the bridge, the guideportion of the first handle configured to align the bridge with the mainbody portion of the first handle.
 16. The game controller of claim 15,in which a guide portion of the second handle extends from the main bodyportion of the second handle and along a second end of the span of thebridge, the guide portion of the second handle configured to align thebridge with the main body portion of the second handle.
 17. The gamecontroller of claim 1, in which the flat, flexible cable includes adouble fold within the bridge.
 18. The game controller of claim 17, inwhich the double fold comprises a first fold being between a firstelongated section of the flat, flexible cable and a folded section ofthe flat, flexible cable and a second fold being between a secondelongated section of the flat, flexible cable and the folded section.19. The game controller of claim 18, in which a fold angle of the firstfold and a fold angle of the second fold are substantially equal and areless than 180 degrees.